Magnetic-field effect on the photoactivation reaction of Escherichia coli DNA photolyase.
about
Chemical magnetoreception in birds: the radical pair mechanismLocalisation of the Putative Magnetoreceptive Protein Cryptochrome 1b in the Retinae of Migratory Birds and Homing PigeonsBlue-light-receptive cryptochrome is expressed in a sponge eye lacking neurons and opsinCryptochromes--a potential magnetoreceptor: what do we know and what do we want to know?Photoreceptor-based magnetoreception: optimal design of receptor molecules, cells, and neuronal processingSeparation of photo-induced radical pair in cryptochrome to a functionally critical distanceDecrypting cryptochrome: revealing the molecular identity of the photoactivation reactionModerate strength (0.23-0.28 T) static magnetic fields (SMF) modulate signaling and differentiation in human embryonic cellsEffect of magnetic fields on cryptochrome-dependent responses in Arabidopsis thalianaLight-dependent magnetic compass orientation in amphibians and insects: candidate receptors and candidate molecular mechanismsDiscovery and functional analysis of a 4th electron-transferring tryptophan conserved exclusively in animal cryptochromes and (6-4) photolyases.Direct observation of a photoinduced radical pair in a cryptochrome blue-light photoreceptorThe Cryptochrome Blue Light ReceptorsReaction kinetics and mechanism of magnetic field effects in cryptochromeA new type of radical-pair-based model for magnetoreception.Magnetically sensitive light-induced reactions in cryptochrome are consistent with its proposed role as a magnetoreceptor.Unexpected electron transfer in cryptochrome identified by time-resolved EPR spectroscopy.Cryptochrome 2 mediates directional magnetoreception in cockroaches.Variable electron transfer pathways in an amphibian cryptochrome: tryptophan versus tyrosine-based radical pairsMagnetoreception through cryptochrome may involve superoxide.Magnetic field effects in flavoproteins and related systemsCryptochrome: A photoreceptor with the properties of a magnetoreceptor?Millitesla magnetic field effects on the photocycle of an animal cryptochrome.Alternative radical pairs for cryptochrome-based magnetoreception.Sub-millitesla magnetic field effects on the recombination reaction of flavin and ascorbic acid radicals.Spin relaxation of radicals in cryptochrome and its role in avian magnetoreception.Effects of disorder and motion in a radical pair magnetoreceptor.The sensitivity of a radical pair compass magnetoreceptor can be significantly amplified by radical scavengers.Spectroscopic characterization of radicals and radical pairs in fruit fly cryptochrome - protonated and nonprotonated flavin radical-states.Magnetic field effect in natural cryptochrome explored with model compoundCompass magnetoreception in birds arising from photo-induced radical pairs in rotationally disordered cryptochromesObservation of magnetic field effects on transient fluorescence spectra of cryptochrome 1 from homing pigeons.Proton transfer to flavin stabilizes the signaling state of the blue light receptor plant cryptochrome.Magnetic field effects as a result of the radical pair mechanism are unlikely in redox enzymes.Origin of light-induced spin-correlated radical pairs in cryptochrome.Impact of the N5-proximal Asn on the thermodynamic and kinetic stability of the semiquinone radical in photolyase.Extended Electron-Transfer in Animal Cryptochromes Mediated by a Tetrad of Aromatic Amino Acids.Magnetic compass of birds is based on a molecule with optimal directional sensitivity.Magnetoreception-A sense without a receptor.Engineering an Artificial Flavoprotein Magnetosensor.
P2860
Q24648535-626EC9B0-6BA3-45EE-83BC-4CD9022832C3Q28603101-70E74C9D-C3EC-4611-939F-79049E5C608AQ28731007-6B787B44-80B5-4B4C-A7CF-20F148DB67F9Q28748346-DE769246-6010-4ACA-BE7B-E7EDBC6F611CQ28748352-63B10F4D-EA82-4DBC-8467-2237583BDE33Q28828999-B0446D09-E301-49BD-8462-41C118D14B98Q30528462-36CC3EAA-2BB6-4ACB-9D09-6246D6E58341Q33490273-652843CB-FAB3-4404-8BAD-34E8E5B6EDD2Q33632638-40C0CDE8-982E-443B-96FA-77F6133B0B4EQ33747232-430649B2-CC06-4822-A329-4E061CABE46BQ34493481-28294C78-6530-4017-BFD2-921D031870D6Q34896116-ADDF6872-9217-4CB1-A18C-D3189E6F92A0Q35161827-B9B4DF96-13EC-481A-9B75-948F65F0A068Q35700171-C0E2170B-0FB7-4B75-99A2-1FCAC6D050A3Q35809983-54210B4E-D33D-4579-966D-A1CBB48CA40DQ35882295-9BEFB9E7-A000-43FB-AC29-646B23EC7322Q36452661-E3D5750D-7B8F-4E97-9303-93F255D3D517Q36598850-43D2283C-8F56-491A-ADA2-948519522B35Q36725038-50F9F75E-7F7F-4402-877B-CB2EFCD1045BQ37265321-48927802-4525-4E0F-A91D-32726FEA80A5Q37561406-FC88AFAD-74F1-433B-AC9D-CED1CDC9F8F1Q37764299-764AE9DB-0D14-45A5-ABCD-78A8892AAA53Q38972666-DC9E5A72-A9E9-418F-A63C-462A4558989BQ39111013-3430B766-FA40-4295-A13B-C813188876B8Q39430163-FCD4A1BF-21DD-4E52-9A97-CFC2FEAE1756Q39569231-2409B541-86C2-44E7-8205-168F6C8E23D9Q39758443-9D7EC3F7-0022-4A7F-BDC1-154D6BAADBA0Q41043423-1A2C26A1-14E6-4339-B613-A87E086F9952Q41065942-2F317050-2D12-4862-A228-3D18FC288F09Q41703551-03324151-8B91-40F6-A034-39DF0F5150ADQ41894359-7CAA4C57-F629-4F34-AFAF-0C9C4E3627B6Q42004144-C54DA851-97DB-4F9E-A546-7FB71379A0CAQ42117875-A86CDD7E-75BE-44B2-9175-2AC3138B9667Q42126932-0BC608E5-FBFE-44E4-85C7-E6614C8906D3Q42174523-2A6FE167-6A12-40F4-BF96-EC07B9C01E69Q42180420-FD1898C4-5275-4044-B189-E789554DCDD5Q42182954-7C466386-AC36-4FF3-9D89-89674DC1DD9AQ42634293-CF5485FA-79E8-4C74-8DB5-679E5B43AC46Q45230999-39262574-1B09-4AE6-9B93-880C6C0330D4Q47139004-79168571-F6AA-4628-A2C0-A3C19BFD6019
P2860
Magnetic-field effect on the photoactivation reaction of Escherichia coli DNA photolyase.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
2008年论文
@zh
2008年论文
@zh-cn
name
Magnetic-field effect on the photoactivation reaction of Escherichia coli DNA photolyase.
@en
type
label
Magnetic-field effect on the photoactivation reaction of Escherichia coli DNA photolyase.
@en
prefLabel
Magnetic-field effect on the photoactivation reaction of Escherichia coli DNA photolyase.
@en
P2093
P2860
P356
P1476
Magnetic-field effect on the photoactivation reaction of Escherichia coli DNA photolyase.
@en
P2093
Christiane R Timmel
Erik Schleicher
Kevin B Henbest
Kiminori Maeda
Monika Joshi
Robert Bittl
Stefan Weber
P2860
P304
14395-14399
P356
10.1073/PNAS.0803620105
P407
P577
2008-09-17T00:00:00Z